The 40PrTiTaO6 + 60YTiNbO6 ceramic composite is prepared through the solid state ceramic route. The structure is discussed using X-ray diffraction analysis. Surface morphology is examined by Scanning Electron Microscopy (SEM). Impedance and modulus spectroscopic studies are carried out. A decrease in the resistive behavior of the sample assisted by the grain boundary conduction with rise in temperature is found. The experimental results on electrical properties indicate that the material exhibits conduction both due to bulk and grain boundary effect. The microstructure was investigated by SEM micrographs in which grains separated by grain boundaries are visible. There is a probable change in the capacitance values of the material as a function of temperature. The relaxation time is small at higher temperatures than at lower temperatures. The activation energy is found as 1.52 eV, which suggests the possibility of electrical conduction due to the mobility of oxide ions (O2−) or oxide ion vacancies at higher temperature.